WO2018077566A1

WO2018077566A1 - Electrical device with dynamic coil compression

Info

Publication number: WO2018077566A1
Application number: PCT/EP2017/074635
Authority: WO
Inventors: Gernot Neumüller
Original assignee: Siemens Aktiengesellschaft
Priority date: 2016-10-26
Filing date: 2017-09-28
Publication date: 2018-05-03
Also published as: DE102016221114A1; US20180114630A1; US10269483B2

Abstract

An electrical device (1) for connection to a high-voltage network, comprising: a magnetizable core (3); at least one coil (5, 6, 7) enclosing a section (4) of the core (3); a tank (2) filled with insulating fluid, in which the core (3) and each coil (5, 6, 7) are arranged; and at least one compression element (14) which is designed to generate coil pressure, is surrounded by insulating fluid and is supported on the core (3) and the coil (5, 6, 7). In order to provide such an electrical device, with which the coil pressure can be easily and cost-effectively readjusted from the exterior, the invention proposes that the compression element is a controllable compression element (14) connected to an actuator (19, 28), wherein the actuator (19, 28) is configured to adjust the coil pressure generated by the compression element (14).

Description

description

Electrical device with dynamic winding pressure The invention relates to an electrical device for connecting to a high-voltage network with a magnetizable core, at least one winding to include a portion of the core ^¬, one filled with isolator fluid boiler, in which the core and each winding are arranged and at least one pressing element surrounded by insulating fluid for producing a

Winding pressure, which is supported on the core and the winding.

Such an electrical device is known to the person skilled in the art from practice. So have for example commercially available Trans ^¬ transformers on a magnetizable core which is formed of abutted steel sheets. The core has a plurality of legs extending in a longitudinal direction, which are connected to each other by means of an upper and lower yoke. For compressing the steel sheets, an upper and a lower pressing frame are provided. The windings and the respective leg of the core are concentric and arranged together in one filled with isolator fluid boiler, wherein the insulating fluid is typically an oil or mineral ULTRASONIC but from a synthetic or Natürli ^¬ ches ester may consist medium. The isolator serves as ^¬ well for the isolation of the winding at high voltage potential in operation with respect to the lying at ground potential boiler as well as for cooling the windings. To set the positioning tion or location of the windings during operation sicherzu ^¬, the windings are pressed or at the core legs clamped in other words. The winding is pressed according to the prior art prior to its installation in the boiler and, as a rule, by means of hydraulic cylinders, which are temporarily used to generate pressure. Shortly before installation, the hydraulic cylinders or similar auxiliary means for temporary winding pressing are removed and by wood packages, pressure screws or other elements which the La ge of the winding can keep static in their state replaced. In addition, pressing elements are known which have a me ^¬ chanisches spring element. The electrical device described above has the disadvantage that the static pressing elements have no or only a short spring travel. Over the years of operation of an electrical device or in the case of frequent short circuits, however, there is the possibility that the winding heights change (eg aging of the insulating paper, insulation structure winding), so that the previously known press ^elements no longer provide the desired winding pressure. If the check or even the adjustment of the winding pressure is necessary, the winding with the core must be removed from the boiler or at least the transformer cover and accessories must be removed. However, this is complex and kos ^¬ tenintensiv.

The object of the invention is therefore to provide an electrical device of the type mentioned, with the winding pressure can be easily and inexpensively adjusted from the outside.

The invention achieves this object in that the press element is designed as a drivable pressing member and connected to ei ^¬ ner actuating unit, wherein the control unit is adapted for adjusting the winding pressure generated by the pressing member. According to the invention, an electrical device is provided, in which the winding pressure can be adjusted with little effort afterwards. For this purpose, a controllable pressing element is provided in the context of the invention, which is connected to a Stellein ^{¬ unit} . The actuator is suitably arranged so that it is easily accessible from the outside. With the aid of the setting unit, it is thus easy to access the pressing element in order to introduce the desired winding pressure. put. An elaborate removal of the entire winding has thus become unnecessary in the context of the invention.

The pressing member is a motor element and generates the necessary pressure for the winding pressing force, wherein the provided from Pressele ^¬ ment force of the control variable output side provided by the setting unit corresponds. In principle, within the scope of the invention, any pressing element can be used which can generate a sufficiently large force between its two supporting points.

In the context of the selected here formulation, the term "core" is meant both a magnetizable portion of the core which is gebil- det example, abutted steel sheets, and a pressing frame comprise, by means of which press against each other, the steel sheets and held ^¬ the.

According to a first variant of the invention, the pressing element is an electrically controllable pressing element which is connected via an electrical connection line with the setting unit, wherein the setting unit provides a vorbestimmba ^¬ re electrical voltage or a predeterminable electrical current on the output side. An electrically controllable press element can be inexpensively purchased on the market and easily integrated into the electrical device. As supplied by the electrical power press member is weitge ^¬ proceeding independently in addition to the temperature of insulating fluid. According to a related development, the electrically controllable pressing element has a piezoelectric element or an electric motor. A piezo element generates a contact force, which depends on the applied voltage. The force provided by the piezoelectric element can be amplified by means of a suitable mechanism. Deviating from an electric motor is provided. In this case, for example, a linear motor is considered, which is known to the person skilled in the art as such, so that a detailed description can be made at this point. le can be dispensed with. In order to avoid a permanent supply of the controllable pressing element with an output voltage or an output current through the adjusting unit, it is expedient to provide locking means which make it possible to freeze the pressing element in a certain state in which a certain winding pressure is generated.

According to another variant deviating from the press element forms a filled with hydraulic fluid Hydrau ^¬ likkammer from, wherein the winding pressure is determined by the pressure of the hydraulic fluid in the hydraulic chamber. Since the hydraulic chamber is coupled with compensating means to compensate for temperature-related volume fluctuations of the hydraulic fluid. In this variant of the invention, the pressing element is designed as a hydraulic pressing element. Since the pressing member within the boiler of the electrical device, that is, for example, located within a transformer or within the boiler of a throttle, the hydraulic fluid is exposed to different temperatures, on the one hand from the outside temperature and on the other by the generated heat loss of the or each of the windings electrical device are dependent. However, the hydraulic fluid expands with increasing temperature, so that the winding pressure would increase without compensation means very strong and could lead to damage of the windings or damage the sealing system of the hydraulic chambers. The compensating means take the tempera ^¬ turbedingten volume fluctuations in the hydraulic fluid au and keep the temperature variations of the winding pressure in an acceptable frame.

According to an expedient further development, the compensation means comprise a moving part, which limits the hydraulic chamber fluid-tight. Further comprise the off ^¬ equal medium spring means are supported on said moving part from ^¬. If the hydraulic fluid in the hydraulic chamber expands, this leads to a movement of the moving part against the Fe provided by the spring means derdruck, whereby the spring is stretched further. Depending on the spring characteristic of the internal pressure is increased by this zusätzli ^¬ surface deformation of the spring, although in the hydraulic chamber. Conveniently, however, the spring means have a characteristic which ensures only a slight or negligible increase in the winding pressure.

The design of the spring means is basically arbitrary within the scope of the invention. For example, the spring means may comprise mechanical spring elements. Here mechanical coil springs or the like are used in ^¬ play as Belleville springs, into consideration. Deviating from this, however, the spring means may also include gas springs or an elastically deformable elastomer, which provides the desired spring characteristic.

Conveniently, the actuator is a mechanical

Actuator and for adjusting the spring characteristic of the spring ^¬ means set. According to this advantageous further development, the setting unit is connected to the spring means via a suitable mechanism. By mechanical actuation of the actuating unit, for example by turning an adjusting screw ^¬ a mechanical motion is transmitted as part of the mechanism to a control element of the spring means, the darauf- changed toward the spring characteristics to the desired extent.

According to a preferred embodiment of the invention, the compensating means on a balancing cylinder, in which the moving part and the spring means are arranged, wherein the ^¬ same cylinder is connected via a hydraulic line to a working cylinder which is supported on the core and the winding and generates the winding pressure , The working cylinder is in this embodiment, a conventional Hydraulikzy- cylinder, in which a working piston is arranged with a piston rod which is supported either on the core or on the winding. The piston is movably held in the working cylinder, so that by the increase of the hydraulic pressure in the hydraulic chamber of the piston and the piston rod are pressed more strongly against the core or the winding and the winding pressure is amplified. The hydraulic chamber according to this variant of the invention is not limited exclusively by the working cylinder, but extends via the hydraulic line into a likewise filled with hydraulic fluid portion of the compensating cylinder, which is limited by the moving part fluid-tight. At this moving part, the spring means are again supported with one of their ends, whereas the end facing away from the windings of the spring means abuts against an inner wall of the compensating cylinder. In other words, the hydraulic chamber is increased by the hydraulic line and the working cylinder. According to this further development of the invention, the working cylinder can be used a commercially available hydraulic cylinder which is connected via a likewise commercially available hydraulic line with a further compensating cylinder. The balancing cylinder can also be arranged inside the boiler of the electrical device or outside the boiler mounted on the outside. Via the hydraulic line, a temperature-induced expansion of the hydraulic fluid in the working cylinder is transmitted to the moving part in the compensating cylinder, so that again a compression of spring means to compensate for the volume fluctuation occurs.

Notwithstanding this, the working cylinder itself is supported by the spring means on the core and the winding. In other words, the moving part is arranged to move in a working cylinder ^¬ piston defining together with the cylinder, the hydraulic chamber, the piston or the working cylinder via the spring means to the core or the coil is supported. According to this variant, the same medium from ^¬ at least partially into the working cylinder in tegriert ^¬. The spring means may be formed, for example in the form of a resilient portion of the piston rod. Deviating from this, the working cylinder or the piston rod is supported on the spring means. Expediently, the hydraulic fluid and the insulating fluid are identical. This prevents contamination of the insulating fluid in the event of leakage of the pressing element. Advantageously, the control unit has a with Hyd ^¬ raulikkammer coupled hydraulic pump. The Hydraulikpum ^¬ pe allows comfortable way to change the winding pressure. Thus, the hydraulic pressure in the hydraulic chamber can be easily increased or decreased by accessing the hydraulic pump.

Conveniently, the actuator is located outside the boiler, so that the winding pressure can be adjusted easily. According to a deviating variant in this respect, however, the adjusting unit is disposed within the boiler, where ^¬ , however, is provided at the handhole, via which access to the adjusting unit is made possible. The arranged in the boiler actuator is protected from weather conditions in the interior of the boiler arranged. To change the winding pressure, therefore, the hand hole must be opened.

In order to provide a sufficient winding pressure in case of failure of the pressing element, dimensionally stable spacers are provided between the core and the winding. These spacers are arranged for example in the immediate vicinity of the pressing elements. The spacers are executed in ^¬ example as wood packages or pressure screws.

According to a further expedient embodiment of the invention, a sensor for detecting the winding pressure is provided, wherein the sensor is connected to a display element which indicates the winding pressure. The sensor may be, for example, a pressure sensor for receiving a hydraulic pressure. As a ^departure from this, the sensor can be designed as a force transducer which directly detects the force acting between the winding and the core. Force transducers, for example piezo elements or the like, are known to the person skilled in the art, so that This site can be dispensed with a more detailed description.

Further expedient embodiments and advantages of the invention are the subject matter of the following description of exemplary embodiments of the invention with reference to the figures of the drawing, wherein like reference numerals refer to the same effect components and wherein Figure 1 shows a first embodiment of the fiction, ^¬ electrical device in a schematic side view and

Figure 2 show a further embodiment of the inventions ^{¬ to the} invention electrical device in a transverse view in a schematic cross-sectional view.

Figure 1 shows an embodiment of the electrical device 1 according to the invention, which is designed as a transformer. The transformer 1 has a fluid-tight vessel 2, in which a core 3 is arranged. The core 3 has a magnetizable section, which is formed from abutting steel sheets and forms legs 4, which are in the embodiment shown each of three Teilwick ^¬ lungs 5, 6 and 7 concentrically surrounded. The core legs 4 are connected at their upper end by a likewise magnetizable upper yoke 8 with each other, wherein the upper yoke 8 by a pressing frame 9 from both sides

is compressed. The non-magnetizable pressing frame 9 is formed as part of the core 3 in the Ausführungsbei ^¬ game L-shaped and has a aufwei from the Zeichenebe ^¬ ne shoulder 10, which is perpendicular to a parallel to the upper yoke 8 extending Anpress- leg 11 extends. Above the windings 5, 6, 7, a winding ring 12 can be seen, in the indicated

Slidable longitudinal direction 13 and rests on the end faces of the windings 5, 6 and 7. At the winding ring 12 a nerseits and the shoulder 10 on the other hand controllable pressing elements 14 are supported, each having a Arbeitszylin ^¬ of 15, in which a piston 16 is guided in the longitudinal direction 13 movable. The working cylinder 15 and the piston 16 define a hydraulic chamber 17 which is filled with a hydraulic fluid. The piston 16 is fluid-tight with the aid of sealing means on the inner wall of the working cylinder 15. On the side facing away from the hydraulic chamber 17 side of the piston 16 spring means 18 are provided which are on the one hand and on the inner wall of the m working cylinder 15 on the other hand supported on the piston.

Outside the boiler 2 are two actuators 19 recognizable ^¬ bar, which are connected via a mechanical connection 20 with the spring mittein. The adjusting unit and the mechanical connection allow adjustment of the spring characteristic or the spring characteristic of the spring means 18. For example, the spring can be biased more strongly via the mechanism 20, whereby the spring characteristic changes and at the same time the contact pressure of the winding ring 12 on the winding ^¬ end pages or with In other words, the winding pressure is increased.

When heating the insulating fluid within the boiler 2, there is also a heating of the hydraulic fluid in the hydraulic chamber 17, wherein the hydraulic fluid expands. In this case, the piston 16 is moved upward. This leads to a further compression of the spring means 18. In this case, however, the winding pressure increases in comparison to the embodiment without a spring to a significantly reduced extent. The increase of the winding pressure can be predetermined with Hil ^¬ Fe the spring characteristic. In order to maintain a minimum winding pressure at a defect of the hydraulic system, for example in a leakage of the hydraulic chamber 17, dimensionally stable spacers 30 between the core, here the Anpressschenkel 11 and the winding ring 12 are arranged. The winding ring 12 is of course made of a dimensionally stable material. Figure 2 shows a further embodiment of the OF INVENTION ^¬ to the invention the transformer 1 in a schematic transverse view. The embodiment shown in Figure 2 differs from the embodiment shown in Figure 1 schematically with respect to the configuration of the pressing elements 14. The pressing elements 14 are no longer supported directly on the Wick ^¬ ment ring 12. Rather, supplements 21 are provided, which make it possible to use less bulky pressing elements. The pressing element 14 shown in FIG. 2 is a commercially available hydraulic cylinder, which is called a working cylinder 15 here. In the working cylinder 15, a part of the hydraulic chamber 17 is formed, which is limited there by a movable piston. The fluid-tightly guided piston is equipped with a piston rod 22 from ^¬ extending from the working cylinder 15 out.

Outside the boiler 2, a surge tank 23 can be seen, which has a moving part 24 which is arranged in a balancing cylinder 26 and in this fluid-tight and movable ge ^¬ leads. Between the balancing cylinder 26 and the working cylinder 15, a hydraulic line 27 extends. In this embodiment, the hydraulic chamber of the moving part 25, the piston, not shown figuratively

Working cylinder 15 and the hydraulic line 27 limited. At the side facing away from the hydraulic chamber side of the moving member 25 spring means 18 are supported, which serve to compensate tempera ^¬ turbedingter volume fluctuations of the hydraulic fluid 17. The protruding from the balancing cylinder 26 piston rod 22 is supported on any component and thus in the longitudinal direction 13 freely movable. The compensating means 23 in order ^{¬ also} summarize a hydraulic pump 28 and a pressure ^¬ indicator 29, which is connected to a arranged in the hydraulic chamber figuratively not shown pressure transducer and indicates the prevailing pressure in the hydraulic chamber. The hydraulic pump 28 is an actuator in the sense of it ^¬ contraption, which allows the winding pressure in the overall wanted to set the way. For example, if the winding pressure are increased, the hydraulic pump is switched ^¬ turned 28 so that the hydraulic pressure in each of the equalizing cylinders 26 and in the working cylinder 15. Toggle increases. According to said pressure increase, an increased force is introduced into the end faces of the windings 5, 6 and 7 via the piston rod 22, the inserts 21 and the winding ring 12. This increases the winding pressure. FIG. 2 shows a further variant of the invention

Device shown in dashed lines. In this embodiment of the invention, the compensation element 23 is no longer out of ^¬ half of the boiler 2, but within the fluid space of Kes ^¬ sels 2 arranged. The compensating means 23 again comprise a compensating cylinder 26 with moving part 25, which is movably guided in the compensating cylinder and fluid-tightly delimited in the ^¬ sem a hydraulic chamber, which is formed by a part of the compensating cylinder 26, the connecting line 27 and a part of the working cylinder 15. Figurut not shown is a separate actuator, which serves to change the spring characteristic of the spring means 18. The compensating ^¬ means 23 are here angeord ^¬ net in the upper part of the boiler 2, which has a figuratively not shown hand hole, which can be opened from the outside, so that access to the compensating means 23 is possible. The actuator is integrated in this example in the compensating cylinder 26 and can be adjusted by the hand hole from the outside.

Claims

claims

1. Electrical device (1) for connection to a high voltage ^¬ network with

a magnetizable core (3),

at least one winding (5, 6, 7) enclosing a section (4) of the core (3),

- A vessel filled with insulating fluid (2), in which the core (3) and each winding (5,6,7) are arranged, and

- At least one of insulating fluid surrounded pressing element

(14) for generating a winding pressure supported on the core (3) and the winding (5, 6, 7),

d a d u r c h e c e n c i n e s that

the pressing member is connected to a controllable pressing member (14) and with an adjusting unit (19,28), said Stellein ^¬ unit (19,28) is adapted for adjusting the press-element (14) erzeug ^¬ th winding pressure.

2. Electrical device (1) according to claim 1,

d a d u r c h e c e n c i n e s that

the pressing element is an electric stoppable pressing element, which via an electrical connection line with the

Actuator is connected, the actuator on the output side provides a predeterminable electrical voltage or a predeterminable electrical current.

3. Electrical device (1) according to claim 2,

d a d u r c h e c e n c i n e s that

the electrically controllable pressing element has a piezoelectric element or an electric motor.

4. Electrical device (1) according to one of the preceding claims,

d a d u r c h e c e n c i n e s that

is the pressing member (14) with hydraulic fluid (17) forms filled hydraulic chamber and the pressure by the winding pressure of the hydraulic fluid (17) in the Hydrau ^¬ likkammer determined, the hydraulic chamber with the exception mean (16,18,23) to compensate for temperature-induced volume fluctuations of the hydraulic fluid (17) is coupled.

5. Electrical device (1) according to claim 4,

d a d u r c h e c e n c i n e s that

the compensating means (16, 18, 23) comprise a moving part (16, 25) which limits the hydraulic chamber in a fluid-tight manner and spring means (18), the moving part (16, 25) being supported on the spring means (18).

6. Electrical device (1) according to claim 5,

d a d u r c h e c e n c i n e s that

the setting unit is a mechanical actuating unit (19) and for adjusting the spring pressure of the spring means (18) is arranged.

7. Electrical device (1) according to claim 5 or 6,

d a d u r c h e c e n c i n e s that

the compensating means (23) comprise a compensating cylinder (26) on ^¬, in which the moving part (25) and the spring means (18) are arranged, being connected to the compensating cylinder (26) via a hydraulic line (27) having a working cylinder (15) which is supported on the core (3) and the winding (5, 6, 7) and generates the winding pressure.

8. Electrical device (1) according to claim 5 or 6,

d a d u r c h e c e n c i n e s that

the moving part is a piston (16) arranged movably in a working cylinder (15) and defining the hydraulic chamber together with the working cylinder (15), the piston (16) being connected to the core (3) or spring means (18) the Wick ^¬ ment (5,6,7) supported.

9. Electrical device (1) according to claim 4, wherein:

the hydraulic fluid and the insulating fluid are identical.

10. Electrical device (1) according to one of claims 4 to 9, d a d e r c h e c e n e c i n e that t

the control unit comprises means, coupled to the hydraulic chamber Hyd ^¬ raulikpumpe (28).

11. Electrical device according to one of the preceding Ansprü ^¬ che,

d a d u r c h e c e n c i n e s that

the setting unit (23) is arranged outside the boiler.

12. Electrical device (1) according to any one of claims 1 to 10, d a d e r c h e c e n e c e s in that e

the actuator (23) is located within the boiler, the boiler having a hand hole allowing access to the actuator (23).

13. Electrical device (1) according to one of the preceding claims,

d a d u r c h e c e n c i n e s that

between the core (3) and the winding (5,6,7) is arranged at least one dimensionally stable spacer (30) for providing a minimum winding pressure.

14. Electrical device (1) according to one of the preceding claims,

d a d u r c h e c e n c i n e s that

a sensor for detecting the winding pressure is provided, wherein the sensor is connected to a display element (29) which indicates the winding pressure.